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03 nanooptic devices
1. N DNano Optic Devices
Nano-Optic Devices
Expanding light possibilities
STARTUP VILLAGE
JUNE 2014
2. Summary on the Technology
2
⢠Key technology of Nano-Optic Devices is
Digital Planar Hologram, which allows
managing and guiding beams of light with
any required predesigned characteristics
(phase, polarization, direction) .
⢠This can be revolutionary in optical sensing,
similar to the transition from electronic
tubes to integrated circuits in electronics.
⢠Digital Planar Holography (DPH) is a unique
approach for designing photonics devices
with desired properties to control the light.
Schematic view of a DPH chip
Chip with Digital Planar Hologram
ď¨ DPH consists of millions of grooves - lines ranging in width from several dozens to
several hundred nanometers. NOD spectrometers-on-chip the DPH serves as a
diffractive device performing a spectral decomposition of input light by focusing the
different spectral components at the different places along the chip output where the
linear detector array is installed.
3. Summary on application
3
ď NOD Technology has multiple applications most of which are disruptive. Key priority is given to spectroscopy
market with easy to enter products and further development of sensors. Other applications shall be
developed in cooperation with strong international players
Spectrometers on
chip
Spectrometers for measuring laser light, combination of small size
and high resolution.
Sensors
Various types of sensors utilizing NOD capability to make the smallest
spectroscope on the market.
Optical
Interconnect
NOD has simulated and designed a chip with optical interconnect
inside.
Telecom
NOD technology allows developing a new generation of mux/demux
devices
Touch screen
technology
Screens based on NOD technology can be of any size and have
gesture recognition feature; R&D requested by a major US player
Laser Diodes
H-Laser allowing producing extra strong laser diodes with stable
coherent light
Firstpriority
Secondpriority,continuouseffortsin
cooperationwithlargecompanies
4. Application #1: Spectrometers
4
ď Spectrometers are closest to the market and shall allow the Company achieve breakeven, proof the
Technology to the market and develop chips production cycle
Input taper
Optical fiber
Unmatched combination of high
resolution (0.15 nm) and small size
Competing devices have either a
small size but 5-7 time worse
resolution...
... or high resolution but large size
Classical
technology
NOD early
prototype
NOD current
prototype
⢠Easy to use
⢠Strong competitive
advantage in existing
markets
⢠New markets and
application
Key strategic advantages:
⢠High resolutions
⢠Small size
⢠Auto calibration
⢠Very low temperature
sensitivity
⢠Robustness
5. NOD Market
5
ď NOD strategy assumes step by step development in Spectroscopy application from small and ÂŤeasy to enterÂť to
larger scale markets with disruptive products. Long term strategic goal includes developing tiny sensors
leveraging NOD key strategic advantage â smallest spectroscopes on the market
> 6-10
1. Spectrometers for
end users
2. Spectrometer as
OEM device
3. Analyzers based of
spectrometers
Estimate market size, USD B
2013
-2014
2014
-2015
2014
-2015
2015
-2016
âLab on chipâ
0.1-0.6
0.8-1.6
1.6-3.2
SDK
kit
⢠Spectrometer for measuring laser light
⢠Market volume estimate: USD 100-600M
⢠Chip + photo detector and a Software
Development Kit (SDK) to install into
third Partyâs devices
⢠Market volume estimate: above USD 1B
⢠End user devices
⢠Market volume estimate: USD 2B
⢠Final end user device of very small size
⢠Includes DPH chip with embedded
photodetector, light source and sensing
component
⢠Market volume estimate: USD 8B
4. Sensors
6. NOD locations
6
ď Strong management team of the Company is located next to major research centers in USA and Russia
⢠Santa Clara (Silicon Valley, USA), Head Office,
Production, Marketing, Business development
⢠Troitsk (Russia), R&D and administration
Troitsk
Santa
Clara
⥠Vasily Nikolaev (acting CEO). MBA from IESE (Spain), work
experience in consulting (McKinsey)), Investment Banking
and Private Equity (, Da Vinci Capital). M.S. Department of
Physics of the Moscow State University.
⥠Alexander Goltsov (CTO) - professor, Doctor in Physics
and Mathematics. Graduated from MIPT, PhD in Physics
and Mathematics from MIPT and Kurchatov Atomic
Energy Institute, professor in Princeton University. Over
120 scientific publications.
⥠Paul Murphy (Sales & Marketing Director). Has been on
the cutting edge of the evolution of spectrometers from
the late 1980âs. Sales & Marketing experience in leading
spectroscopy companies, including Ocean Optics and
Avantes
⥠Katya Stesin (Adviser)-business development executive
and serial entrepreneur. Co-founded Anagran (router
technology), partner Kiventures, advisor to numerous
high-tech companies. PhD Mechanical engineering Santa
Clara University, M.S. Stanford Engineering, Econimics.
Total â11 people
7. N DNano Optic Devices
Katya Stesin
Mobile Russia +7 968 803 6463
Mobile USA +1 (650) 520 5302
Stesin@nanoopticdevices.com